Bethe-Salpeter equations for the collective modes of the t-U-V-J model with d-wave pairing

Abstract

The Bethe-Salpeter equations for the collective modes of a t-U-V-J model are used to analyze the resonance peak observed at Q=(π,π) in neutron scattering experiments on the cuprates. We assume that the resonance emerges due to the mixing between the spin channel and 19 other channels. We have calculated the energy of the lowest mode of the extended Hubbard model (J=0) vs the on-site repulsive interaction U, as well as the UJ lines in the interaction parameter space which are consistent with the ARPES data and reproduces the resonance peak at 40 meV in Bi2212 compound. We find that the resonance is predominantly a spin exciton.